DNA聚合酶eta精确绕过嘧啶二聚体有助于紫外线诱变

IF 1.5 4区 医学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
C.F.M. Menck , R.S. Galhardo , A. Quinet
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引用次数: 0

摘要

人类着色性干皮病变异(XP-V)患者的POLH基因发生突变,该基因负责编码翻译合成(TLS) DNA聚合酶eta (Pol eta)。这些病人患皮肤肿瘤的频率很高。尽管经过了几十年的研究,对Pol eta的研究仍然提供了一个有趣的悖论:这种容易出错的聚合酶是如何抑制突变的?本文综述了最近的证据表明,环丁烷嘧啶二聚体(CPDs)是指导Pol eta。因此,它可以准确地复制这些病变,紫外线辐射诱导的诱变效应源于含c的CPDs的脱胺作用。在该模型中,cpd内C的脱氨(形成U)导致与脱氨的C(或U)二聚体相反的a的正确插入。这个复杂的过程导致C>T转变,这代表了在皮肤癌中检测到的最普遍的突变。最后,XP-V细胞中的延迟复制通过备用TLS聚合酶的活性,放大了cpd中C-脱胺的过程,增加了XP-V肿瘤中普遍存在的C>T突变的负担。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The accurate bypass of pyrimidine dimers by DNA polymerase eta contributes to ultraviolet-induced mutagenesis

The accurate bypass of pyrimidine dimers by DNA polymerase eta contributes to ultraviolet-induced mutagenesis

Human xeroderma pigmentosum variant (XP-V) patients are mutated in the POLH gene, responsible for encoding the translesion synthesis (TLS) DNA polymerase eta (Pol eta). These patients suffer from a high frequency of skin tumors. Despite several decades of research, studies on Pol eta still offer an intriguing paradox: How does this error-prone polymerase suppress mutations? This review examines recent evidence suggesting that cyclobutane pyrimidine dimers (CPDs) are instructional for Pol eta. Consequently, it can accurately replicate these lesions, and the mutagenic effects induced by UV radiation stem from the deamination of C-containing CPDs. In this model, the deamination of C (forming a U) within CPDs leads to the correct insertion of an A opposite to the deaminated C (or U)-containing dimers. This intricate process results in C>T transitions, which represent the most prevalent mutations detected in skin cancers. Finally, the delayed replication in XP-V cells amplifies the process of C-deamination in CPDs and increases the burden of C>T mutations prevalent in XP-V tumors through the activity of backup TLS polymerases.

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来源期刊
CiteScore
4.90
自引率
0.00%
发文量
24
审稿时长
51 days
期刊介绍: Mutation Research (MR) provides a platform for publishing all aspects of DNA mutations and epimutations, from basic evolutionary aspects to translational applications in genetic and epigenetic diagnostics and therapy. Mutations are defined as all possible alterations in DNA sequence and sequence organization, from point mutations to genome structural variation, chromosomal aberrations and aneuploidy. Epimutations are defined as alterations in the epigenome, i.e., changes in DNA methylation, histone modification and small regulatory RNAs. MR publishes articles in the following areas: Of special interest are basic mechanisms through which DNA damage and mutations impact development and differentiation, stem cell biology and cell fate in general, including various forms of cell death and cellular senescence. The study of genome instability in human molecular epidemiology and in relation to complex phenotypes, such as human disease, is considered a growing area of importance. Mechanisms of (epi)mutation induction, for example, during DNA repair, replication or recombination; novel methods of (epi)mutation detection, with a focus on ultra-high-throughput sequencing. Landscape of somatic mutations and epimutations in cancer and aging. Role of de novo mutations in human disease and aging; mutations in population genomics. Interactions between mutations and epimutations. The role of epimutations in chromatin structure and function. Mitochondrial DNA mutations and their consequences in terms of human disease and aging. Novel ways to generate mutations and epimutations in cell lines and animal models.
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